aboutsummaryrefslogtreecommitdiff
path: root/libbuild2/cc/parser+module.test.testscript
diff options
context:
space:
mode:
authorBoris Kolpackov <boris@codesynthesis.com>2024-08-06 06:35:50 +0200
committerBoris Kolpackov <boris@codesynthesis.com>2024-08-06 07:20:09 +0200
commit63697e466fb8a5c013d1f32a687ed53eb26f688a (patch)
treee774277c71d8d8f88d5ddad4c5885a354447b7af /libbuild2/cc/parser+module.test.testscript
parent3a75b8dc68c03128b18ec842b843a201b9b7f45c (diff)
Add support for specifying compile options on exe/lib{} targets
It is now possible to specify compile option (*.poptions and *.coptions) on the exe/lib{} targets (we call them "binary-specific compile options"). Such options are propagated to obj/bmi{} targets that are synthesized for source prerequisites of the binary. Note that this propagation does not apply to obj/bmi{} prerequisites. For example: exe{foo}: cxx{foo} obj{common} { cxx.poptions += -DFOO } exe{bar}: cxx{bar} obj{common} { cxx.poptions += -DBAR } obj{common}: cxx{common} { cxx.poptions += -DCOMMON } In this example, cxx{foo} will be compiled with -DFOO, cxx{bar} -- with -DBAR, and cxx{common} -- with -DCOMMON. Note that if a source prerequisite is shared between several binaries, then the values of the propagated compile options (or their absence) must match. For instance, the following variant of the above example would result in an error since cxx{common} would have contradictory cxx.poptions values: exe{foo}: cxx{foo common} { cxx.poptions += -DFOO } exe{bar}: cxx{bar common} { cxx.poptions += -DBAR } As another example, here is how we can rewrite a typical library buildfile (which requires different macros to distinguish between shared/static builds) using this mechanism, in this case, to build two libraries in the same scope: ./: lib{foo}: {hxx cxx}{*-foo} ./: lib{bar}: {hxx cxx}{*-bar} cxx.poptions =+ "-I$out_root" "-I$src_root" lib{foo}: { cxx.poptions += -DFOO cxx.export.poptions = "-I$out_root" "-I$src_root" } liba{foo}: { cxx.poptions += -DLIBFOO_STATIC_BUILD cxx.export.poptions += -DLIBFOO_STATIC } libs{foo}: { cxx.poptions += -DLIBFOO_SHARED_BUILD cxx.export.poptions += -DLIBFOO_SHARED } lib{bar}: { cxx.poptions += -DBAR cxx.export.poptions = "-I$out_root" "-I$src_root" } liba{bar}: { cxx.poptions += -DLIBBAR_STATIC_BUILD cxx.export.poptions += -DLIBBAR_STATIC } libs{bar}: { cxx.poptions += -DLIBBAR_SHARED_BUILD cxx.export.poptions += -DLIBBAR_SHARED } The exact semantics of this mechanism is as-if the binary-specific compile options were set on the synthesized obj/bmi{} targets at the end of the buildfile. One nuance to keep in mind is that target type/pattern-specific assign/append/prepend specified for obj/bmi{} will not be in effect for options specified on lib/exe{}. For example: cxx.poptions += -DSCOPE obj{*}: cxx.poptions += -DTARGET exe{foo}: cxx.poptions += -DFOO Here the effective cxx.poptions for exe{foo} prerequisites will be -DSCOPE -DFOO since exe{foo} does not match the obj{*} pattern. As result, if using this mechanism, remember to include the binary target types in obj{} patterns. For example: {obj exe}{*}: cxx.poptions += -DTARGET
Diffstat (limited to 'libbuild2/cc/parser+module.test.testscript')
0 files changed, 0 insertions, 0 deletions